Apparatus for sealing containers



H. E. 'STOVER APPARATUS FOR SEALING CONTAINERS Filed Feb. 16, 1940 Jan. 2, 1%3. 1-1.5. sTovER APPARATUS FOR SEALING CONTAINERS Filed Feb. 16, 1940 6'Sheets-Sheet 2 INVENTOR I Harr E. Sfover ATTORNEYJ H. E. STOVER 2,309,548

APPARATUS FOR SEALING CONTAINERS Filed Feb. 16, 1940 6 Sheets-Sheet 3 Jan. 26, 1943.

Jan. 26, 1943. v H. E. STOVER 2,309,548

APPARATUS FOR SEALING CONTAINERS Filed Feb. 16, 1940 6 Sheets-Sheet 5 11v VENTOR Harr E. Sfovcrt A TTORNE Y5 Jan. 26, 1943. H. E. STOVER 2,369,548

APPARATUS FOR SEALING CONTAINERS Filed Feb. 16, 1940 s Sheets-Sheet 6 VENTOR Harry E. Srover:

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v b, .t f "F AYES rFiQn APPARATUS FOR llfNG CONTS Harry E. Stover, Leonia, N. 5., assignor to Anchor- Hocking Glass Corporation, Lancaster, 00, a corporation of Delaware Application February 16, 1940, Serial No. 319,312

25 Claims. (Cl. 226-80) y i enti rel es t an app a us for sea machine of the type indicated wherein the sealmg c ta ne s: t a o do, more Particularly. ing means embodies a sealing head adapted to with an apparatus for applying closures to conbe moved relative to the container, means being tainers, such as food containers and including provided for adjusting the stroke or extent of jars, bottles, cans, et cetera, and sealing them on 5 travel of said sealing head. the containers and for producing a partial'vad- Another object of my invention is to provide uum in the upper ends of the containers. a machine of the type indicated wherein the One of the objects of my invention is to prosterilizing and vacuumizing is accomplished with vide a greatly simplified apparatus for applying steam and wherein the sealing means is also opand sealing closures on containers and for createrated by steam, which makes it possible to proing an effective vacuum in the space at the upper vide a very simple and compact machine. end of the container, between the closure and v Another object of my invention is to provide the contents of the container, which will aid in a machine of the type indicated wherein the preventing spoilage of the contents and will also closure applying and sealing means and the aid in keeping the closure in position on the sterilizing and vacuumizing means are arranged container. in the form of a single unit which may be easily Another object of my invention is to provide and quickly attached to any suitable type of conapparatus of the type indicated which is of such veyer unit for bringing containers into associaa nature that the closure and the upper end of tion therewith. the container and the head space between the In its preferred form my invention contemcontents and the closure will be sterilized during plates the provision of a simple apparatus for the sealingnperation. applying closures to and sealing them on various Another object of my invention is to provide containers such as jars, bottles, cans, etc. My an apparatus of the type indicated which will apparatus is in the form of a very compact struc vacuumize and Seal the Container q y and ture which may be associated with any suitable effectively. v type of conveyor unit, which is adapted to bring Another object of my invention is to provide a the containers into association therewith. My machine of the type indicated which is of a very apparatus is preferably disposed in superimposed simple structure and, therefore, can be built at relationship to a continuously moving conveyer a relatively low cost, which will occupya small upon which the filled containers are placed inamount of space, and which is composed of a discriminately. This conveyer preferably hasminimum number of parts tending to wear or means associated therewith for centering and become inoperative. maintaining the containers centered on the con- Another object of my invention is to provide a veyer. machine of the type indicated which may be ad- My apparatus includes a cap feeding and apjusted readily to operate upon containers of plying unit, where caps or other closures are various sizes. loosely positioned on the upper ends of the con- Another object of my invention is to provide tainers moved into association therewith by the a machine which will be continuous in operation conveyer. Directly adjacent the cap feeding and and which will perform its operation without 40 applying unit, I provide a sealing head. The handling of the containers by an operator. conveyer moves the containers, with caps loosely Another object of my invention is to provide applied thereto, into association with this seala machine of the type indicated which has sealing head. The sealing head is spaced slightly ing means actuated by fluid pressure and which above the upper ends of the containers and fluid-. is of such a nature that although fluid of low actuated means is associated therewith for forcpressure may be employed, a high sealing presing it downwardly whenever a container, having sure may be obtained. a cap properly associated therewith, moves be- Another object of my invention is to provide heath the sealing head. This will force the cap a machine of the type indicated which has means downwardly into frictional engagement with the associated with the sealing means for limiting upper end of the container. The fluid-actuated the sealing pressure to a predetermined maxi- *means is of such a structure that although low mum so as to prevent injury to the container bepressure fluid may be used, a high sealing presing sealed, said means being adjustable to vary sure will be obtained. I preferably provide the maximum pressure produced. means associated with the sealing head for limit- Another object of my invention is to provide a c the p es ed thereby 0n the container to a predetermined maximum. This means may be quickly and easily adjusted to vary the maximum pressure produced. Also, I preferably provide means associated with the sealing head for adjusting its stroke or extent of its downward travel.

The sealing head has means associated therewith for automatically lifting the cap from the upper end of each container and for injecting steam into the head space, at the upper end of each container, to displace the air therefrom, both of these operations being performed substantially simultaneously just prior to the sealing of the cap on the container. After the cap is sealed on the container, the steam previously injected into the head space of the container will condense, creating an effective vacuum within the container which will aid in holding the cap in position and will als aid in preventing spoilage of the contents of the container. Since I provide steam for sterilizing and vacuumizing, it is also desirable to use steam as the fluid for operating the sealing head.

During the sealing operation, the container is stationary and the conveyer preferably continues to move therebeneath. However, as soon as the pressure produced by the sealing head is. eliminated, the container will again be moved by the conveyer away from the sealing head. The cap feeding and applying unit is operatively connected to the mechanism for operating the sealing head, so that each time the sealing head is actuated, a cap is fed from the cap feeding unit into position to be engaged by the next containen, moved by the conveyer into association therewith.

It will be understood that if the contents of the container is porous, air will not only be removed from the head space above the content; but also from the contents.

Various other objects and advantages will be apparent from the following description.

The preferred embodiment of my invention is illustrated in the accompanying drawings, wherein similar characters of reference designate corresponding parts and wherein:

Figure 1 is a plan view of a machine constructed in accordance with my invention.

Figure 2 is a side elevational view of the main portion of the machine shown in Figure 1.

Figure 3 is a vertical sectional view of the sealing head unit and its actuating mechanism and showing the cap feeding and applying unit in association therewith.

Figure 4 isv a view partly in perspective and partly in vertical section illustrating the sealing head unit and the cap feeding unit.

Figure 4a is a perspective view showing a separating wedge of the cap-feeding unit.

Figure 5 is a diagrammatic view of the cylinder and piston unit, which actuates the sealing head, and the control valves, the valves being shown in the positions they occupy when the sealing head is not actuated.

Figure 6 is a similar view but showing the valves in the positions they occupy when the sealing head is actuated.

Figure '7 is a transverse vertical sectional view taken substantially along line 7-'i of Figure 1 but being enlarged.

Figure 8 is a view partly in horizontal section and partly in plan taken substantially along line- 8-8 of Figure 9 illustrating the cap feeding and applying unit which I provide.

horizontally disposed plate 9.

Figure 9 is a vertical sectional view taken substantially along line 99 of Figure 8.

Figure 10 is a view, partly in side elevation and partly in section taken substantially along line ill-iii of Figure 8. a

With reference to the drawings, I have illustrated a machine which comprises generally a conveyer unit I, a cap feeding and applying unit 2 and a sealing head unit 3.

The conveyer unit I may be of any suitable type. For example, it may be of the type disclosed in the co-pending application of William D. Bell on Apparatus for sealing containers, Serial No. 314,299, filed January 17, 1940. However, it is to be understood that my apparatus may be associated with any suitable type of con-' veyer unit. The conveyer unit preferably embodies means for continuously moving the con' tainers into proper association with the units 2 and 3, including means for centering the con" tainers relative to said units.

My invention is not limited to use with any particular type of container and cooperating cap but for illustrative purposes I have shown in Figure 7 a. tumbler 4 adapted to receive the cap 5 on its upper end. This cap preferably embodies a substantially disk-like portion 6 which has a depending annular skirt 1 which carries an annular gasket 8 therewithin. When the cap is forced downwardly onto the upper end of the container, the frictional contact of the gasket with the upper end of the container will aid in maintaining the cap in position and will seal the cap on the container.

The containers 4 are placed indiscriminately on the conveyer and are moved in the direction of the arrows (Figures 1 and 2) by the conveyer. The containers are centered thereon in the manner described in said co-pending application Serial No. 314,299. They are first carried to the cap feeding and applying unit 2. This unit is of such a type that it will apply a cap loosely to the upper end of the container. After the container passes the unit 2, it passes to the sealing head unit 3. This sealing head unit 3 is adapted to displace the air from the head space and to sterilize such space and the cap before the sealing operation.

The units 2 and 3 are disposed directly adjacent each other. They are both supported by a The plate 9 is supported at a point spaced above the conveyer unit I by means of four vertically disposed nonrotatable posts in which are disposed at each corner of the plate. Each of these posts i0 is provided with a base portion I l on its lower end which is suitably secured, as by screw bolts Ila, to a portion of the conveyer unit I. The upper portion of each of these posts is threaded, as indicated at 12. Each of the posts has an internally threaded worm gear l3 mounted on the threaded portion l 2 thereof. Each of these worm gears is disposed directly beneath and engages a corner extension It of the plate 9. Bolted to the side of each of these corner extensions 14 is a bracket l5. The pair of brackets l5 at the right hand end of the plate 9 (Figure 1) rotatably support a horizontally disposed worm shaft H1. The pair of brackets [5 at the other end of the plate 9 rotatably support a horizontally disposed worm shaft 11. Each of the worm shafts l6 and i1 carries a pair of worms l8 which engage the adjacent worm gears 13. The worm shaft l1 provided with an angular end I9 for receiving a crank by means of which it may be asoasss rotated. In order to rotate the shaft l6 simul-' taneously with the shaft ii, the shaft W is provided on its opposite end with a sprocket 20 keyed thereon. This sprocket has a chain 2i passing therearound which also passes around a sprocket 5 22 keyed on the corresponding end of the shaft it Thus, it will be apparent that when the shaft H is rotated, the shaft it will be rotated simultaneously and to the same extent. Consequently, by rotating shaft ll, all of the worm gears l3 will be caused to rotate. Since these gears are threaded on the posts 80, they will be moved vertically on the posts. Furthermore, since the gears are in engagement with lower surfaces of the plate 9, the plate 9 will be moved vertically in accordance with the vertical movement of the gears. Thus, the plate 9 may be adjusted vertically to position the units 2 and 3 at the proper height above the conveyer unit, depending upon 0 the height of the containers to be sealed. It will be noted that all portions of my apparatus are carried by the plate 9. Consequently, it is in the 1 form of a unitary structure which may be readily associated with any suitable type of conveyer unit.

The sealing head unit 3 is illustrated best in Figures 1, 2, 3, 4 and 7. It comprises a vertically disposed cylindrical housing portion 23 which has a base portion 2% that is bolted by means of bolts 26a to the upper surface of the plate 9. Be- 3 neath the base portion 26 the plate 9 is provided with a large opening 25, in order to permit vertical movement of the sealing head 26. This sealing head embodies a substantially cylindrical portion of non-magnetic metal which is carried 5 on the lower end of a plunger 27!.

The sealing head 28 is provided with a recess 2% in its upper surface which receives the enlarged lower end 29 of the plunger 27. Theplunger 2? is provided with a vertically disposed bore 36 which has an interiorly threaded lower end that receives the threaded upper portion of a bolt 3i. This bolt passes upwardly through a' centrally disposed opening 32 in member 25 which is enlarged at its lower end to receive the head 33 of the bolt. The bolt 3! will maintain the head 26 in position on the lower end of the plunger 27. A pin 34 is disposed in aligning openings in the member 25 and enlarged portion 29 of the plunger to prevent relative rotation ,of these members.

In order to normally maintain the plunger 21 in its uppermost position I provide the following structure. A pin 85 is carried by the housing portion 23 and extends transversely thereof and through a vertically disposed slot 36 formed in the plunger 27. A compression spring 31 has its lower end resting on this pin 35 and its upper end engaging with the upper end of the bore 30'. Thus, this spring 37 normally tends to force the plunger 2? upwardly until the enlarged portion 29 thereof contacts with the lower end of the housing portion 23.

Above the housing portion 23 is a housing portion 38 which is of tubular form and which has a flange on its lower end that is bolted to a flange on the upper end of housing portion 23, as indicated best in Figure 7. Threaded into the upper end of the housing portion 38 is a collar 39. This collar 39 has a plunger 40 mounted therein for vertical movement. This plunger has a peripheral flange ti on its lower end which fits tightly within the housing portion 38. Between the lower end of the collar 39 and the upper surface of the flange ll and in surrounding relationship to the plunger so is a compression spring E2. The spring d2 normally forces the plunger downwardly. A stop portion d3, formed on the inner end of a bolt dd threaded through the housing portion 38, is provided for preventing excessive downward movement of plunger id to a point where the links of the toggle approach each other too closely. The upper end of the plunger is threaded, as indicated at E5, and receives threaded collars 66 which bear against the upper end of the collar 39. The collars 36 are held in adjusted position by means of set.

screws d'l. By rotating the collars 65, the distance between the flange ti and the collar 39 may .be varied and, consequently, the downward force exerted by the spring 62 on the plunger may be varied. By rotating the collar 39 in the housing portion 38, the entire unit including plunger d0, spring 52, collar 39 and collars d6 may be adjusted axially of the housing. The two adjustments just described are provided for a purpose to be explained later. The collar 39 may be held in any adjusted position by means of a lock nut 48 threaded on collar 39 and held in adjusted position by set screw v Mia. The lower end of plunger All may or may not be in contact with stop d3, as shown, depending upon the position of the plunger unit, which is determined by adjustment of member 39.

It will be apparent that the plungers M and 27 are disposed in axial alignment. It will also be apparent that the lower end of the plunger M3 is spaced above the upper end of plunger 27. Between these plungers and within the housing portions 38 and 23, a toggle joint d9 is disposed. One

link 55 of the toggle joint extends upwardly and i has its upper end pivotally connected, as at El,

to the bifurcated lower end of the plunger tit The other link 52 has its lower end pivotally connected, as at 53, to the bifurcated upper end of the plunger 2?. The adjacent ends of the links 5@ and 52 are pivoted together, as indicated at 5 5. These ends of the links 55 and 52 are provided with yoke portions which straddle (Figure 4) the flat end portion 55 of a piston rod 56. The pivot 56 also serves to connect the links to the rod 55. as indicated. The piston rod 56 extends through aligning vertical slots 51 and 58 formed at diametrically opposed points in the housing portion 38. The slot 5i is large enough to permit the required movement of the toggle joint 49, and both slots are of suiiicient height to permit limited vertical movement of piston rod 56.

The actuating mechanism for the sealing head 26 is normally in the condition illustrated in Figures 3 and 4. The plunger 50 will be held in its lowermost position by the spring Q2. The plunger 21 will be held in its uppermost position by the spring 31. The toggle joint t9 will be in the condition illustrated, that is, with its links at an angle to each other. It will be apparent that if the piston rod 55 is moved to the right (Figures 3 and 4),

the toggle joint 69 will be straightened out. This will force the plunger 27 downwardly against the action of spring 31 and, consequently, will force the sealing head 26 downwardly. As soon as the piston rod 55 moves to the left, the spring 37 will return member 26 to its uppermost position. The spring-pressed plunger t0 is provided to limit the downward force exerted on the plunger 21 to a predetermined maximum so as to prevent injury to the, container being sealed. This predetermined maximum is determined by the initial adjustment of the distance between the lower end of collar 39 and the flange l which varies the downward force exerted by the spring 42. When the downward force created by the toggle 49 on the plunger 2! reaches the predetermined maximum, the plunger48 will be forced upwardly against the resistance of the spring 42. Consequently, the pressure exerted on plunger 21 will not be excessive. It will be apparent that during operation of the toggle joint, the piston rod 56 will move vertically to a limited extent. Adjusting the plunger unit vertically by means of the member 39, as previously described, will vary the extent of the downward movement of the plunger 21 and, consequently, of the member 26. Thus, the extent of the downward movement of member 26 may be readily adjusted.

For controlling movement of the piston rod 56, I provide the mechanism now to be described. This mechanism comprises a fluid-operated cylinder and piston unit 59. This unit 59 includes a housing which has a large cylinder bore 68 formed in its upper portion and a small cylinder bore 6I formed in its lower portion. The bores 68 and GI are horizontally disposed and are parallel with each other. The housing 59 is mounted on the upper surface of the plate 9. It is provided with a flattened lower surface which has a downwardly projecting lug 62 formed thereon that fits into a groove 63 formed in the upper surface of plate 9. The housing is disposed directly adjacent the housing portions 23 and 38 of the sealing head operating mechanism. A bolt 64 is passed upwardly through the plate 9 and is threaded into the unit 59 to hold it in position. A large bolt 65 is passed horizontally through an upstanding lug 66 on the unit 59 and has its outer end threaded into a boss on the housing portion 38. as at 61. A look nut 68 is provided for looking the bolt in position. Thus, it will be apparent that the unit 59 is held firmly in position.

The bore 68 has a hollow cylinder 69 slidably mounted therein. This cylinder 69 has an abutment I8 formed on its end wall 69a which is adapted to contact with the head 'II disposed at the left hand end of the unit 59 and which will serve to keep the end of the piston spaced slightly from the inner surface of the head 'II. A cap I2 is bolted to the other end of the unit 59 and is provided with a cylindrical extension I3 having an opening I4 formed in the outer wall thereof. The piston rod 56 passes inwardly through this opening into the interior of the bore 68. The inner end of the piston rod 56 is flattened and is pivotally connected at I5 to a bifurcated lug I6 formed on the interior surface of the end wall of the piston. The opening 14 is larger than the piston rod 56 so as to permit limited movement of the piston rod therein. A compression spring 11 is disposed within the bore 68 and the extension I3 of cap 12 in surrounding relationship to the rod 56. One end of the spring bears against the end wall of the extension I3 while the opposite end bears against a collar I8, which is mounted on the rod 56 in a fixed position by means of the transverse pin I9. It will be apparent that this spring normally tends to force the piston 69 to the left so that the abutment I8 contacts with the head II. Consequently, this will also keep the toggle joint 49 in the condition illustrated in Figures 3 and 4.

I preferably employ steam as the fluid for moving the piston 69 from the position indicated in Figures 3 and 4. The housing 59 has a steam jacket 80 formed in the wall thereof and extending completely around the housing. A main steam line BI is adapted to convey steam into this jacket. This jacket serves to prevent or decrease condensation of the steam within the housing 59. The line 8| may be connected to any suitable $011108 of supply.

The bore 6| has a piston type valve 82 mounted for axial movement therein, as shown best in Figures 3 to 6. This piston valve 82 is adapted to control the supply of steam to and exhaust of steam from the cylinder bore 68. Adjacent one of its ends the piston valve 82 is provided with an annular chamber 83 and adjacent its opposite end the piston valve 82 is provided with an annular chamber 84. An exhaust opening 85 and an inlet opening 86 are provided in the wall of the bore 6| at longitudinally spaced points and communicate with a longitudinal passageway 81. This passageway has one end communicating with an opening 88 which leads into the cylinder bore 68 adjacent the head 1|. The opposite end of the passageway 81 communicates with an opening 89 which leads through the wall of the bore 68. The outer end of this opening 89 is covered by the piston 69, when in the position illustrated in Figure 5. However, when the piston moves to the right, the opening 89 communicates with a longitudinally extending groove 98 formed in the periphery of the piston 69. When the piston 82 is in the position indicated in Figure 5, the exhaust opening 85 will be in communication with the annular chamber 84 of the piston, while the inlet opening 86 will be covered by the piston. At a point in alignment with the exhaust opening 65 is an exhaust opening 9| formed in the wall of the bore 6|. This opening 9I communicates with an exhaust conduit 92. With the piston 82 in the position indicated in Figure 5, steam will exhaust from the left hand end of the cylinder bore 68, through exhaust opening 85, annular chamber 84 and exhaust opening 9|. At a point in alignment with the inlet 86, is an inlet opening 93 formed in the wall of the bore 6| and communicating with the chamber 88. The piston 82, when in the position indicated in Figure 5, will cover the inlet openings 86 and 93. Consequently, steam will not be supplied to the cylinder bore 68.

For controlling movement of the piston valve 82, I provide a valve mounted in an extension 94 of the housing 59. This extension is pro- -vided with a vertically disposed slot 95. A cylindrical bore 96 is formed in the main portion of the extension 94 while a cylindrical bore 96a is formed in the end portion of the extension. The portions 96 and 96a are in axial alignment and receive a piston 91, which is mounted for axial movement therein. The portion of the piston extending within the slot carries a pair of spaced collars 98 which serve to limit movement of the piston. The portion of the piston 91 which is disposed in the bore 96 has an annular chamber 99 formed therein and annular chamber I88 formed therein in axial spaced relationship. The piston 91 is also provided with a passageway I8I extending axially therethrough and which has one end communicating with the chamber I88, as at I82, and its opposite end communicating with the portion of the bore 96 disposed beyond the left hand and of the piston. A steam passageway I83 connects the steam chamber 88 to the annular chamber 99 formed in the piston 91; An exhaust passageway I84 connects the left hand end of bore 96 to the exhaust conduit 92. Spaced passageways I85 and I86 communicate with the bore 96 and, when the piston 97 is inthe position indicated in Figure 5, the end I'I of the piston covers the end of passageway I while the end of passageway I06 communicates with the chamber 99 in the piston. These passageways I05 and I00 are connected to a passageway I08 which is connected to the left hand end of the cylinder bore GI. Axially spaced passageways I 09 and H0 communicate with the bore 96 and, when the piston 91 is in the position indicated in.Figure 5, the central portion III thereof covers the end of passageway I09 and the passageway IIO communicates with the annular chamber I00 of the piston 91. The passageways I09 and II 0are Connected to a passageway II2. which is connected to the right hand end of the bore GI. A passageway H3 leads from the bore 96a to an opening III in the wall of bore 60 which is uncovered by the -piston 60, when the piston is in the position indicated in Figure 5, and which is so disposed that when the piston 69 moves to the right, it will communicate with the groove 90, thus connecting openings 89 and II I.

It will be apparent that with the piston 91 in the position indicated in Figure 5, steam will flow from the chamber 80, through the passageway I03, through annular chamber 99 of piston 07, through passageways I06 and I08, to the left hand end of the bore 6 I, and will force the piston 02 to the right. At the same time, any steam in the right hand end of the bore 6| will exhaust through passageway .I I2, passageway H0, annular chamber I00, bore IOI, bore 96, passageway I00 and exhaust conduit 92. Thus, the

inlet openingsBB and 93 will be covered by the piston 82, while the outlet openings 85 and SI 09 communicates with the opening IEO through groove 90. This will permit steam to flow into passageway IIS and into the bore 00a and will force the piston 01 back tothe position indicated in Figure 5.

The piston 01 must be moved to the right mechanically by means of a. lever II 5. This will move the piston 60 to the right, as described above. However, as soon as the piston 69 moves sufficiently, the piston 91 will be returned to its original position by steam pressure, as described above. Thus, movement of the piston 0'! to the right is controlled mechanically while movement of the piston to the left is accomplished automatically by steam pressure.

For moving the piston 97 to the right, I provide the pivoted lever M5, as previously described. This lever has a yoke portion II6 on its upper end which engages the piston 91 between the-collars 98, as shown best in Figures 3 and 4. The lever H5 straddles a. flattened portion III of a small plunger I I8 and is pivotally connected thereto as at So. The plunger H8 is disposed for axial movement in aligning bores I I9 and I20 formed in the main portion and end portion, respectively of the extension 00. A compression spring I2I is provided in the bore I20 for normally forcing the plunger M0 to the left. A transverse bore I22 is provided at the inner end of bore II 9 and at right angles thereto. This transverse bore has screw member threaded therein which has a pointed inner end I20 which contacts with the chamfered inner end of the plunger H8. The spring I2I normally keeps the plunger in contact with the point I24 of the screw I23. It will be apparent that by adjusting will be in communication with each other,

through the medium of annular chamber 80 of piston 82. Consequently, steam from the left hand end of the cylinder bore 60 will exhaust through the exhaust conduit 92. Thus, the spring 17 will be permitted to return the piston 09 to the. position indicated in Figure 5.

However, if the piston 91 is moved to the right, as indicated in Figure 6, steam will be supplied to the left hand end of the cylinder bore- 60 to move the piston 69 to the right. It will be apparent that when the piston 91 is moved to the right, steam will flow from the passageway I03, through the annular chamber 99 in piston 0?, through the passageway I09, through passageway M2 (the passageway IIO having its end closed at this time by the portion III of the piston) to the right hand end of the bore 6|, which will cause the piston 82 to move to the left. At the same time, the steam in the left hand end of the bore I willexhaust through the passageway I08, through passageway I05 (the end of passageway I06 being closed by the end I07 of piston 07 at this time) through the left hand end of bore 96 and through-passageway I00 (the axial bore IOI being in effect closed since the annular chamber I00 is completely covered by the wall of bore 96) to the exhaust conduit 02. When the piston 02 is moved to the position indicated in Figure 6, the inlet openings 03 and 06 communicate with each other through the medium of the annular chamber 83 of the piston 82, while the exhaust openings 05 and SI are covered by the piston. Consequently, steam will flow from the chamber 00 into the passageway 8'21 and through opening 88 into the left hand end of, the bore 00. This will force the piston 09 to the right. When the piston 09 moves to the right sufliciently, the opening the screw I23 in or out, the plunger H8 may be accurately adjusted axially of itself, the point I 24 serving as a wedge member contacting the end of plunger H0. This adjustment is provided for a purpose which will be explained later.

The lower end or" the lever H5 is pivotally connected, as at I25 to the end of a link I26. This link I 20 is pivotally connected, as at I21, to a lever I28 intermediate the ends thereof. The upper end of the lever is pivotally connected, as at I29, to a pair of spaced lugs I30 between which it is disposed. The lugs I30 project outwardly from the extension 00. The lower end of the lever I28 i disposed adjacent the edge of member 26 in alignment with a vertical slot Iii formed therein which is of sufficient width to permit movement of the lever thereinto, if necessary. The lever I 20 has a finger portion I32 on its lower end which extends downwardly beyond the lower surface of the member 26, when the member 26 is in its uppermost position. Adjustment of plunger IIB will move the lower end of lever I28, into or out of slot ISI, to properly posi-- tion the finger I32 at the point where the edge of the cap will be disposed when it is carried on the head 26 in sealing position. The proper position of finger I32 will vary with variations in diameters of the caps being used.

The cap feeding and. applying unit 2 is illusing 25. The plate I33 is bolted to the plate 0 by means of wing bolts I35 so that it may be readily removed. The plate I33 is provided with a centrally disposed opening I36'which'is in alignment with the sealing head 20. This opening I36 is of the proper size to permit the caps, to be applied to the containers, to drop freely therethrough. The plate I33 carries four upstanding posts I31 which are spaced circumferentially around the opening I36. These posts I37 are adapted to receive a stack of the nested caps.

For controlling the feed of the caps downwardly through the opening I36, I provide the following structure. This structure embodies a pair of cap separating wedge members I38. These wedge members I38 are disposed tangentially to the opening I 36, as indicated best in Figure 8. They are mounted for axial movement in the plate I33. The outer ends of these members I38 are connected to block members I39 which receive a transversely extending pin I40. This pin I40 is engaged intermediate its ends by a yoke I4I, formed on the lower end of a lever I42, which is vertically disposed. The lever I42 is pivoted at I43 between a pair of lugs I44 projecting from the housing portion 23. The upper end of the lever I42 is pivoted at I45 to the outer bifurcated end of a link I46. The inner bifurcated end of the link I46 is pivoted at I41 to the outer end of the piston rod 56. It will be apparent that when the piston rod 56 reciprocates, it will swing the lever I42 about its pivot I43. Consequently, this will move the members I38 axially.

The members I30 are of the shape shown in the drawings, particularly in Figure 4a. Each of the members I38 has a fiat lower surface I48 formed intermediate its ends. This lower fiat surface has a cam shoulder I49 formed thereon. Beneath each of the members I38 is a stop finger I50 which is mounted for axial movement in a tubular housing II at right angles to the member I38. The tubular housing is disposed in a bore I52 extending radially from the peripheral wall of the opening I36. The outer end of the finger I50 is reduced and has a compression spring I53 associated therewith. This spring normally tends to force the finger I50 inwardly towards the center of opening I36. A nut I54 threaded on the outer end of finger I50 and engaging the outer end of housing I 5| limits this inward movement. The inner end of the finger I50 is provided with a flattened portion I55 which normally projects inwardly beyond the wall of the opening I36 and upon which the lowermost cap normally rests. The two fingers I50 will be diametrically opposed and will normally prevent downward movement of the caps through the opening L36. It will be noted that they are spaced above the bottom of the opening.

Above the surface I55 a cam shoulder I56 is formed on the finger I50. This cam surface I56 is in engagement with the cam shoulder I43 of the member I38. When the member I38 is moved in the direction of the arrow (Figure 4a) the cam shoulder I49, engaging cam surface I56, will force the stop finger I50 outwardly against the force of the spring I53. This will withdraw the finger completely from the opening I 36 out of engagepoint of the fiat surface I51. As shown best in Figure 8, the projecting portion I55 of stop finger 50 is disposed directly adjacent the point I53 where the wedge portion I58 is formed. This wedge portion I58 is provided with a horizontally disposed upper edge I60 which is spaced above the top surface of portion I55 a distance substantially equal to the thickness of a cap. The lower edge I6I of wedge portion I58 is inclined so that the end I59 of portion I58 is pointed. It will thus be apparent that the lowermost cap will normally be supported by the projecting portions ment with the lowermost cap and will permit the cap to drop. As soon as member I38 is returned again to the position indicated in Figure 4a, the finger I50 will be forced inwardly by the spring I53.

. Each of the members I38 also has a flat vertical surface I51 formed thereon intermediate its ends. This surface I57 has a cap separating wedge portion I58 formed thereon but extending only to the point I59, which is almost the mid I55 of the stop fingers I50. However, when the members I38 are drawn outwardly by movement of the lever I42, this causes the fingers I50 to be moved so that the portions I55 thereof are withdrawn from the opening I36, permitting the lowermost cap to drop from the opening. At the same time that the portions I55 are withdrawn, the pointed ends I59 of the cam portions I 58 pass between the lowermost cap and the cap next above. The wedge-shaped cam portions I58 actually serve to force the lowermost cap downwardly. It is desirable to have this positive action rather than to rely upon gravity, because the caps may tend to stick together. The straight upper edges I60 of the portions I58 will support the cap next above and the entire stack during the time fingers I50 are are in the withdrawn position. As soon as the lever I42 returns the members I38 to their original positions, the portions I55 will again project into the opening I36 and the lowermost cap will rest thereon, since the wedge portions I58 have been moved from beneath the cap which they were previously supporting. Thus, it will be apparent that each time the piston rod 56 is moved outwardly to the right (Figure 4) a single cap will drop through the opening I36.

The cap released from the stack will drop downwardly onto a leaf member I52 which is secured to a block .portion I63 that is pivoted by the pivot pin I64 to the lower portion of the plate I33. The leaf member I62 extends beneath the opening I36. Also secured to the block I63, is a pair of parallel tracks I65 which extend forwardly towards the sealing head 26. These tracks I65 are spaced apart a proper distance so that they will support the cap 5 released from the stack. Thus, the cap will be supported in an inclined position, as indicated in Figure 3, by the tracks I65 engaging it at diametrically opposed points and by the leaf member I62 engaging the rear edge thereof. Although the members I65 are spaced a distance such that the cap will rest thereon, they are spaced sufficiently to permit the upper end of the container to pass therebetween, it being understood that the cap is slightly greater in diameter than the upper end of the container.

The tracks I65 are normally held in horizontal position by means of a vertically disposed pin I66 which engages a rearward extension I61 on the block I63. This pin I66 is vertically disposed in an extension I68 of the plate I33. It is provided with a small projection I69 which cooperates with a bayonet slot I70 formed in portion I68. With this structure, the pin may be inserted and rotated and will be locked in position so that it will hold the tracks I65 in horizontal position. Above the forward ends of the tracks I65, a leaf member I'II is disposed which is secured to the lower surface of the plate I33 beyond the opening I36. This leaf III extends to a point adjacent the sealing head 26 and is provided in aeoarses order to preclude .accidental movement of a cap the same manner as described in connection with up between the plate I33, and associated parts, co-pending application S. N. 314,299. and the member 26. From the preceding description, the operation It will be apparent that all parts of the cap of the entire machine will be well understood. feeding unit are carried by the plate I33. Con- The conveyer will be continuously driven and the sequently, when different sized caps are used, the plate 9 will be adjusted to the proper height above entire unit may be removed easily and quickly the conveyer depending upon the height of the andreplaced with a different unit adapted to containers to be sealed. The members I'll will contain and feed caps of a different size. When be properly adjusted relative to each other deremoving the cap feeding unit, it is desirable to 10 pending upon the diameter of the upper ends remove the pivot M3 to permit the lever I42 to of the containers. The cap feeding unit will be be disengaged from the pin I40. Therefore, the of a suitable type to handle caps of the correct pivot I43 is merely held in position by means of size to -be applied to the containers. The conaleaf spring l12,secured to the lever, which caratiners will be placed indiscriminately on the rice a pin I13 on its upper end that engages an 15 conveyer and will be moved beneath the units annular groove in the pivot pin M3 and normally 2 and 3. As a container is moved beneath the prevents axial movement thereof. If a cap beunit 2, it will withdraw a cap from said unit in comes bent or damaged and wedges in the guideth manner previously described. The conway formed by the tracks I65, the pin I66 may tainer with a cap loosely thereon will then be be removed to permit the tracks $5 to swing moved beneath the sealing head 26. When the downwardly into a vertical position so that the container moves beneath'the head 26, the magdamaged cap can be removed. nets serve to lift the cap against the head 26. When the conveyer.moves a container beneath However, the upper end of the container will still the cap feeding unit 2, the upper end of the conengage the skirt of the cap and will move it along tainer will engage the skirt of the inclined cap therewith. As soon as the cap contacts the lower disposed in the position indicated in Figure 3. end of the trigger or finger 632, the control valves This will move the cap along thetracks I65 with will be actuated to supply steam to move the pisthe container. The cap and container will be ton 69 to the right. This will cause the piston moved along until they pass beneath the sealing rod 56 to actuate the toggle joint 49 which will, head 26. Thesealing head has means associated in turn, force the sealing head 26 downwardly. therewith for lifting the cap slightly from the This will force the cap onto the container, as

container.. This means comprises a plurality of previously indicated. Thus, as the container small magnets B14 which are arranged in cirmoves into and reaches sealing position, it will cumferentially spaced relationship. An addiautomatically actuate the sealing head unit, protional magnet H5 is disposed closely adjacent vided a cap is disposed on the upper end of the the edge of member 26 which will first be ap- I container. Before the cap is forced on the conproached by the cap. The magnets are of cytainer, the cap is sterilized and the air in the lindrical form and are mounted in sockets formed upper end of the container is displaced by steam. in the head 26 which is of non-magnetic material. This is accomplished by means of. the steam jets These sockets do not extend quite completely I71 from which steam continuously issues.

through the head 2?. The upper end of each In sealing the cap on the container, forcing of socket receives a cylindrical portion I16 of rubthe gasket over the upper end of the container, her which fits tightly therewithin and tends to in itself, serves to hold the cap on the conhold the magnet in position. tainer. However, the condensation of the steam As the container with the cap thereon moves in the container beneath the cap,'which occurs beneath the sealing head 26, the forward edge of immediately, produces a partial vacuum which the cap will first be lifted by the magnet H5. is the main force serving to hold the cap on the Continued movement of the container will cause container and which also aids in preventing the other magnets to act on the cap to hold it spoilage of the contents of the container. The up against the lower surface of the member 25. sealing occurs substantially simultaneously with ven W t t p in fi m Contact with the memthe injection of the steam into the container and, ber 26, the skirt of the cap will still surround consequently, the steam will not have much the upper end of the container so that it will be chance of escaping from the container before moved along with the container. However, the it is sealed. During the sealing operation, m'ovecap will be spaced sufliciently from the upper end ment of the container along with the conveyer is of the container to permit steam to be injected interrupted by suitable mechanism associated therein in the manner described in the said cowith the conveyer unit which may be of the type pending application Serial No. 314,299. disclosed in Serial No. 314,299 and which is The means for injecting the steam into the shown in Figure '7 and is designated generally by upper end of .the container comprises a pair of numeral la. However, immediately after the steam jet members ill which are provided with sealing peration occurs, the container will a a n steam slots H8. The members m are in spaced e v d e w' t t u u y m vin parallel relationship andH extend along the mem- 3 5 x53 2: p r v i o ug vsgategaytfirom Istealing ber 25. The members I! are carried by arms i v e F amel" 178a which are, in turn, carried by guide mem- 'f gf fi W111 fi functmn 1f a bers H9. These guide members I19 are suiti as no cap ereon' passes there ably mounted in guideways on the bottom a l/ lien the sealin head 26 moves down suffiof plate A .screw member has opposltely ciently to force the cap downwardly into sealing tthreaded portmns engagmg members position on a container, the cap will be out of 'and is carried by the plate 9: in such a manner engagement with the finger '31 Then the that It W111 not axlany- It Wm be P mechanism previously described may function to stood that by rotating screw IBI the distance retum'the finger I32 to its original position. It between the members H1 y be adjusted. will be noted that each time the sealing mecha- Steam y be pplied to the members IT! in nism is actuated, the cap feeding unit is actuated to feed a single cap into position to be engaged by the next container. It will also be noted that low pressure steam can be employed for operating the seal ngmechanism, since the toggle joint 59 will serve to multiply the force produced by movement of the piston 69. As previously explained, the extent of the downward movement of member 26 may be varied and the maximum pressure created by such memoer on the cap and container may be varied.

As previously indicated, the sealing head will not be actuated if a container without a cap is moved therebeneath, because the finger I32 of the actuating lever I28 will not be engaged. Therefore, the upper end of the container will not be damaged.

It will be apparent from the above description that I have provided a greatly simplified apparatus for applying and sealing closures on containers. The caps are positioned on the containers loosely, are lifted slightly and the upper portion of the containers vacuumized and sterilized and simultaneously the caps are sterilized, and then the caps-are forced into sealed position on the containers. The containers will be vacuumized and sealed quickly 'and effectively. Due to the fact that steam is not only used for the sterilizing and vacuumizing operations but is also used as the power for operating the sealing head unit, simplification cf the machine is facilitated. The machine can be adjusted readily to operate upon containers of various sizes and to use caps of various sizes.

Many other advantages have been mentioned in connection with the preceding description and will be apparent from the drawings and the following claims.

Having thus described my invention, what I claim is:

1. Apparatus of the type described for sealing containers comprising means for applying a cap loosely on the container, a sealing member adapted to be moved to seal the cap on the container, means for moving said sealing member, said means comprising a fluid-operated cylinder and piston unit, a mechanical connection between said cylinder and piston unit and said sealing member, said mechanical connection serving to increase the pressure developed by said unit as it is applied to said sealing member, and means for causing said cap feeding means to operate in response to actuation of said cylinder and piston unit.

2. Apparatus of the type described for sealing containers comprising means for applying a cap loosely on the container, a sealing member adapted to be moved to seal the cap on the container, means for moving said sealing member, said means comprising a fluid-operated cylinder and piston unit, a mechanical connection between said cylinder and piston unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, and means for causing said capfeeding means to operate in response to actuation of said cylinder and piston unit.

3. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved downwardly relative to said support to force a cap on the container, a cap feeding and applying unit disposed directly adjacent the sealing member, a horizontally disposed cylinder and piston ing member being carried by a vertically disposed plunger, said cylinder and piston unit being provided with a horizontally disposed piston rod, means for connecting said rod to said plunger and including a toggle joint, said toggle joint having the inner ends of its links hinged to said piston rod, one of said links having its outer end connected to said plunger and the other of said links having its outer end connected to an independent support, and means for connecting said piston rod to said cap feeding and applying unit so that it will also actuate said unit.

4. Apparatus of the type described for sealing containers comprising a continuously moving conveyer, a sealing member spaced above the conveyer and adapted to be moved downwardly relative thereto to force a cap on the container, 9.

cap feeding and applying unit disposed directly adjacent the sealing member and above the conveyer, said unit supporting a cap in position to be engaged by a container on the conveyer before it reaches the sealing member, a horizontally disposed cylinder and piston unit for moving said sealing member, said sealing member being carried by a vertically disposed plunger, said cylinder and piston unit being provided with a horizontally disposed piston rod, means for connecting said rod to said plunger and including a toggle joint, said toggle joint having the inner ends of its links hinged to said piston rod, one of said links having its outer end connected to said plunger and the other of said links having it: outer end connected to an'independent support, means for connecting said piston rod to said cap feeding and applying unit so that it will also actuate said unit, a valve for controlling the supply of fluid to said cylinder and piston unit, a control member for actuating said valve, said control member being associated with the sealing member so that it will be engaged by a cap on a container moved beneath said sealing member by said conveyer.

5. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved downwardly relative to said support to force a cap on the container, a horizontally disposed cylinder and piston unit for moving said sealing member, said sealing member being carried by a vertically disposed plunger, said, cylinder and piston unit being provided with a horizontally disposed pis ton rod, means for connecting said rod to said plunger and including a toggle joint, said toggle joint having the inner ends of its links hinged to said piston rod, one of said links having its outer end connected to said plunger and the other of said links having its outer end connected to an unit for moving said sealing member, said seal- 7 independent support, a valve for controlling the supply of fluid to said cylinder and piston unit, a control member for actuating said valve, said control member being associated with the sealing member so that it will be engaged by a cap on a container moved beneath said sealing member.

6. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved to force a cap on the container, a fluid-operated unit for moving said sealing member, a mechanical connection between said unit and said sealing member, said mechanical connection serving to increase the pressure developed by said unit as it is applied to said sealing member, a valve for controlling the supply of fluid to said unit. a control member for actuating said valve, said control member being so positioned developed by said unit to said sealing member,-

a valve for controlling the supply of fluid to said unit, a control member for actuating said valve, said control member being so positioned that it will be engaged by a cap on a container moved into position on said support in association with said sealing member.

8. Apparatus of the type described for sealing containers comprising a continuously moving conveyer for supporting containers having caps loosely applied thereto, a sealing member supported above the conveyer and adapted to be moved downwardly relative to the conveyer to force a cap on the container, means for nioving said sealing member, said means comprising a fluid-operated cylinder and piston unit, a mechanical connection between said unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, a valve for controlling the supply of fluid to said unit, a control member for actuating said valve, said control member being associated with the sealing member and being adapted to be engaged by the cap on a container moved beneath said sealing member by said conveyer.

9. Apparatus of the type described for sealing containers comprising a continuously moving conveyer, a cap feeding and applying unit supported above the conveyer for feeding a cap into position to be engaged by a container supported on the conveyer, a sealing member spaced above the conveyer and disposed directly adjacent said unit, means for moving said sealing member relative to the conveyer, said means comprising a fluid-operated cylinder and piston unit, a mechanical connection between said unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said cylinder and piston unit to said sealing member, means connecting said cylinder and piston unit to said cap feeding and applying unit so that it will also actuate said unit, a valve for controlling the supply of fluid to said unit, a control member for actuating said valve, said control member being associated with the sealing member and being adapted to be engaged by the cap on a container moved beneath said sealing head by said conveyer.

10. Apparatus of the type described for sealing containers comprising means for applying a cap loosely on the container, a sealing member adapted to be moved to seal a cap on the container, means for moving said sealing member, said means comprising a fluid-operated unit, a mechanical connection between said unit and said sealing member, said mechanical connection including a. toggle joint which serves to transmit the pressure developed by said unit to said sealing member, means for causing said cap-feeding means to operate in response to actuation of said unit, a valve for controlling supply of fluid to said unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved into association with said sealing member.

11. Apparatus of the type described for sealing containers comprising a continuously moving conveyer, a sealing member spaced above the conveyer and adapted. to be moved downwardly relative thereto to force a cap on the container, a cap-feeding and applying unit disposed directly adjacent the sealing member and above the conveyer, said unit supporting a cap in position to be engaged by a container on the conveyer before it reaches the sealing unit, a fluid-operated unit for moving said sealing member and having a horizontally disposed actuating rod, said sealing member being carried by a vertically disposed plunger, means for connecting said rod to said plunger and including a toggle joint, said toggle joint having the inner ends of its links hinged to said rod, one of said links having its outer end connected to said plunger and the other of said links having its outer end connected to an independent support, means for connecting said rod to said cap-feeding and applying unit so that it will also actuate said unit, a valve for controlling the supply of fluid to said fluid-operated unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved beneath said sealing member by said conveyer.

12. Apparatus of the type described for sealing containersv comprising a continuously moving conveyer for supporting containers having caps loosely applied thereto, a sealing member supported above the conveyer and adapted to be moved downwardly relative to the conveyer to force a cap on the container, means for moving said sealing member, said means comprising a fluid-operated unit, a mechanical connection between said unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, a valve for controlling the supply of fluid to said unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved beneath said sealing member by said conveyer.

13. Apparatus of the type described for sealing containers comprising a continuously moving conveyer, a cap-feeding and applying unit sup ported above the conveyer for feeding a\cap into position to be engaged by a container supported on the conveyer, a sealing member spaced above the cori veyer and disposed directly adjacent said unit, means for moving said sealing member relative to Lithe conveyer, said means comprising a fluid-operated unit, a mechanical connection between Said unit and said sealing member, said mechanical connection including a toggle joint whichfserves to transmit the pressure developed by said fluid-operated unit to said sealing member means connecting said fluid-operated unit to said cap-feeding and applying unit so that it ,will also actuate said unit, a valve for controlling the supply of fluid to said fluid-operated unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved beneath said sealing member by said conveyer.

14. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved to force a cap on the container, a fluid-operated unit for moving said sealing member, a mechanical connection between said unit and said sealing member, said mechanical connection serving to increase the pressure developed by said unit as it is applied to said sealing member, a valve for controlling the supply of fluid to said unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved into position on said support in association with said sealing member.

15. Apparatus of the type described for sea]- ing containers comprising a support for a container, a sealing member adapted to be moved to force a cap on the container, means for moving said sealing member, said means comprising a fluid-operated unit, a mechanical connection between said unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, a valve for controlling the supply of fluid to said unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved into position on said support in association with said sealing member.

16. Apparatus of the type described for sealing containers comprising means for aplying a cap loosely on the container, a sealing member adapted to be moved to seal the cap on the container, means for moving said sealing member, said means comprising a fluid-operated unit, a mechanical connection between said unit and said sealing member, said mechanical connection serving to increase the pressure developed by said unit as it is applied to said sealing member, means for causing said cap-feeding means to operate in response to actuation of said unit, a valve for controlling the supply of fluid to said unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved into association with said sealing member.

17. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved to force a cap on the container, a fluid-operated unit for moving said sealing member, a mechanical connection between said unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, means associated with said toggle joint for limiting the pressure exerted on the container by said sealing member to a predetermined maximum, a valve for controlling supply of fluid to said unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved into position on said support in association with said sealing member.

18. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved to force a cap on the container, a fluid-operated unit for moving said sealing member, a mechanical connection between said sealing member and said unit, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, adjustable means associated with said toggle joint for limiting the pressure exerted on the container by said sealing member to a predetermined maximum, adjustable means associated with said toggle joint for varying the extent of movement of said sealing member, a valve for controlling the supply of fluid to said unit, and means associated with said sealing member for actuating said valve when a container with a cap thereon is moved into position on said support in association with said sealing member.

19. Apparatus of the type described for sealing containers comprising a suport for a container, a sealing member adapted to be moved downwardly relative to said support to force a cap on the container, a horizontally disposed cylinder and piston unit for moving said sealing member, said sealing member being carried by a vertically disposed plunger, said cylinder and piston unit being provided with a horizontally disposed piston rod, means for connecting said rod to said plunger and including a toggle joint, said toggle joint having the inner ends of its links hinged to said piston rod, one of said links having its outer end connected to said plunger and the other of said links having its outer end connected to an independent support, a valve for controlling the supply of fluid to said cylinder and piston unit, a control member for actuating said valve, said control member being associated with the sealing member so that it will be en gaged by a cap on a container moved beneath said sealing member, and fluid actuated means for returning said control member to its original position.

20. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved to force a cap on the container, a fluid-operated unit for moving said sealing member, a mechanical connection between said unit and said sealing member, said mechanical connection serving to increase the pressure developed by said unit as it is applied to said sealing member, a valve for controlling the supply of fluid to said unit, a control member for actuating said valve. said control member being adapted to be engaged by a cap on a container positioned on said support in association with said sealing member and fluidactuated means for returning said control member to its original position.

21. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member adapted to be moved to force a cap on the container, means for moving said sealing member, said means comprising a fluid-operated cylinder and piston unit, a mechanical connection between said unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, a valve for controlling the supply of fluid to said unit, a control member for actuating said valve, said control member being adapted to be engaged by a cap on a container positioned on said support in association with said sealing member, and fluid-actuated means controlled by said unit for returning said control member to its original position.

22. Apparatus of the type described for sealing containers comprising a continuously moving conveyer for supporting containers having caps loosely applied thereto, a sealing member supported above the conveyer and adapted to be moved downwardly relative to the conveyer to force a cap on the container, means for moving said sealing member, said means comprising a fluid-operated cylinder and piston unit, a mechanical connectionbetween said unit and said sealing member, said mechanical connection ineluding a toggle joint which serves to transmit the pressure developed by said unit to said sealing member, a valve for controlling the supply of fluid to said unit, a control member for actuating said valve, said control member being associated with the sealing member and being adapted to be engaged by the cap on a container moved beneath said sealing member by said conveyer, and fluid-actuated means controlled by said unit for returning said control member to its original position.

23. Apparatus of the type described for sealing containers comprising a continuously moving conveyer, a cap feeding and applying unit supported above the conveyer for feeding a cap into position to be engaged by a container supported on the conveyer, a sealing member spaced above the conveyer and disposed directly adjacent said unit, means for moving said sealing member relative to the conveyer, said means comprising a fluid-operated cylinder and piston unit, a mechanical connection between said unit and said sealing member, said mechanical connection including a toggle joint which serves to transmit the pressur developed by said cylinder and piston unit to said sealing member, a valve for controlling the supply of fluid to said unit, a control member for actuating said valve, said control member being associated with the sealing member and being adapted to be engaged by the cap on a container moved beneath said sealing head .by said conveyer, and fluid-actuated means controlled by said cylinder and piston unit for returning said control member to its original position.

24. Apparatusrof the type described for sealing containers comprising a support for a container, a sealing member associated with said support, a cylinder and piston unit for moving said sealing member, a valve for controlling the supply of fluid to said cylinder and piston unit, a control member for actuating said valve, said control member being so disposed that it will be engaged by a cap on a container positioned on said support, and fluid-actuated means for returning said valve to its original position.

25. Apparatus of the type described for sealing containers comprising a support for a container, a sealing member associated with said support, a fluid-operated unit for moving said sealing member, a valve for controlling the supply of fluid to said unit, a control member for actuating said valve, said control member being so disposed that it will be engaged by a cap on a container positioned on said support, and fluidactuated means for returning said valve to its original position.

HARRY E. STOVER. 

